I am learning mutex currently and the following is the test code. It works perfectly fine. It creates another instance after one is done. Yet, it also introduces overhead according to here. How efficient is locking an unlocked mutex? What is the cost of a mutex?. How can I modify my code to improve the efficiency?

pthread_mutex_t lock = PTHREAD_MUTEX_INITIALIZER;

typedef struct _context_t {
  uint64_t id;
  char *name;
  bool initialized;
} context_t;

context_t *ctx = NULL;

context_t *get_instance() {
  if (ctx == NULL) {
    ctx = (context_t *)malloc(sizeof(context_t));
    assert(ctx != NULL);
    ctx->initialized = false;
  return ctx;

int id = 0;

void *do_work(void *arg) {
  context_t *ctx = get_instance();
  if (!ctx->initialized) {
    ctx->name = (char *)arg;
    ctx->id = ++id;
    ctx->initialized = true;
  printf("name=%s\tid=%ld\n", ctx->name, ctx->id);
  return NULL;

int main() {
  int rc;
  pthread_t p1, p2;

  rc = pthread_create(&p1, NULL, do_work, "A");
  assert(rc == 0);
  rc = pthread_create(&p2, NULL, do_work, "B");
  assert(rc == 0);

  rc = pthread_join(p1, NULL);
  assert(rc == 0);
  rc = pthread_join(p2, NULL);
  assert(rc == 0);

  if (ctx) {
  return 0;
  • 1
    I'm not sure I understand the question. Yes, there is overhead involved in locking a mutex, but there is nothing your code can do to make that less on a per-call basis. The overhead is characteristic of the mutex operations, not of the calling code. You can reduce the aggregate overhead from mutex operations by reducing the number of mutex operations performed, but that may cause other inefficiencies. Nov 14 '20 at 1:06
  • 4
    Note that there is a race condition in the do_work() function — any code that modifies the shared structure needs to use the mutex to ensure that the structure is not changed by other threads at the same time. The whole if (!ctx->initialized) { … } block needs to be protected by locking and unlocking the mutex. You are not using the mutex enough. You are not incurring enough overhead. Nov 14 '20 at 1:09
  • can you explain a little more about the race condition? Nov 14 '20 at 1:11
  • 2
    I'm inclined to think your efficiency concerns are misplaced, or at least premature. Is your program too slow? If so, then first identify where it's spending its time, then have a look at improving those parts. But not before making it correct. Nov 14 '20 at 1:15
  • 1
    You could avoid extra mutex operations by passing arg from do_work() to get_instance() and completing the initialization of the context in get_instance(). You'd have just four mutex operations — one lock and one unlock for each of two threads. That's about as minimal as you can get. Nov 14 '20 at 1:20

Instead of having two threads racing to create the context_t, you should create it once before the threads start, and pass its address to the threads explicitly. Note that you can pass multiple arguments via pthread_create() by putting them in a struct and passing its address.

Then you won't need a mutex at all, because the threads will only read from ctx rather than potentially writing to it.

  • If the code in do_work() should increment the id value, then you'd probably need a mutex — or you'd have to get involved with atomics (<stdatomic.h>, etc). If you need to do anything more than increment id, you'd need a mutex for reliable operation. Nov 14 '20 at 1:23

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